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姓名	曾奕嘉(YI-JIA,ZENG)  查詢紙本館藏	畢業系所	機械工程學系
論文名稱	動態訊號分析工具箱發展與機械故障診斷應用研究
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摘要(中)	本研究將實驗室多年研究開發的振噪訊號分析演算法利用 LabVIEW^® 與 MATLAB^® 程式互相搭配編寫成人機介面，並系統性地架構於ㄧ工具箱介面，開發一套適用於旋轉機械互動式監測診斷系統。 論文涵蓋訊號分析理論基礎、介面功能規劃測試、及工廠實務驗證等。理論基礎中介紹並比較介面內有的訊號分析演算法；預設機械運轉時可能發生的問題設計實驗，實際量測並善用各演算法優點，分析診斷機械運轉狀態，藉此測試系統的有效性，確認可達到機械狀態監測診斷之目的。 研究中至業界廠房進行實地量測，對研磨機進行軸承狀態監測，並由軸承分析結果與加工工件品質進行討論，結果驗證本研究人機介面系統能有效的分析診斷研磨機狀態。
摘要(英)	The purpose of this study is employing LabVIEW® and MATLAB® to establish the user interface for the algorithm of signal analysis and developing a monitoring system for diagnosing the rotary machine. The thesis includes the theoretical foundation of signal analysis and verification of the functional performance of the interface. This study designed the experiments for testing the efficiency of each algorithm when monitoring the rotary machines. After verifying the efficiency of each algorithms, the system is used to monitor the status of bearing in grinding machine of the factory. According to the analytical result of discussing the quality of the workpiece, the system is confirmed to have high accuracy for diagnosing the status.
關鍵字(中)	★ 訊號分析 ★ 人機介面 ★ 機械故障診斷	關鍵字(英)
論文目次	摘要 Abstract 誌謝 目錄 圖目錄 表目錄 第一章 緒論 1.1研究動機 1.2相關文獻回顧 1.3 研究範圍 第二章 訊號分析 2.1前處理 2.2時域分析 2.2.1 自相關函數 2.2.1 幅值分析 2.3頻域分析 2.4時頻分析 2.4.1短時間傅立葉轉換 2.4.2維勒分佈 2.4.3平滑維勒分佈 2.4.4 Choi-Williams分佈 2.4.5錐形時頻分佈函數 2.4.6時頻分析比較討論 2.5階次分析 2.5.1再採樣定理 2.5.2 VKF階次追蹤 2.5.3 Gabor階次分析 2.5.4適應性RLS階次追蹤 2.5.5階次分析比較討論 2.6軸承缺陷診斷 2.6.1包絡譜分析 2.6.2希爾伯特-黃轉換 第三章 分析介面功能與測試 3.1整體介面介紹 3.2實驗平台介紹 3.2.1量測系統簡介 3.3分析功能測試-平衡校正 3.3.1平衡校正實驗規劃 3.3.2平衡校正實驗流程 3.3.3平衡校正結果與討論 3.4 分析功能測試-聲噪診斷 3.4.1聲噪診斷實驗規劃 3.4.2聲噪診斷實驗流程 3.4.3聲噪診斷介面結果與討論 3.5分析功能測試-特定元件診斷 3.5.1特定元件診斷實驗規劃 3.5.2特定元件診斷實驗流程6 3.5.3特定元件診斷結果與討論 3.6 軸承診斷 3.6.1軸承診斷實驗規劃 3.6.2軸承診斷實驗流程 3.6.3軸承診斷結果與討論 3.7 其他分析功能介紹與測試 3.7.1前處理 3.7.2時域分析 3.7.3頻域分析 3.7.4時頻分析 3.7.5階次分析 3.7.6後處理 第四章 分析功能實務驗證 4.1 實驗載具－研磨機 4.2 實驗規劃 4.2.1實驗量測系統 4.2.2量測規劃 4.2.3研磨機診斷流程 4.3 實驗結果與討論 4.3.1工廠研磨機噪音診斷 4.3.2工廠研磨機軸承診斷 4.3.3研磨機與加工品討論 第五章 結論與未來展望 5.1 結論 5.2 未來展望 參考文獻 附錄A
參考文獻	G. F. Bin , J. J. Gao , X. J. Li and S. Dhillon ,“Early fault diagnosis of rotating machinery based on wavelet packets-Empirical mode decomposition feature extraction and neural network , ” Mechanical Systems and Signal Processing, Volume 27, Pages 696-711, February 2012. J. Cheng , D. Yu and Y. Yang ,“ The application of energy operator demodulation approach based on EMD in machinery fault diagnosis , ” Mechanical Systems and Signal Processing, Volume 21, Issue 2, Pages 668-677, February 2007. S. Delvecchio , G. D’Elia , E. Mucchi and G. Dalpiaz , “Advanced Signal Processing Tools for the Vibratory Surveillance of Assembly Faults in Diesel Engine Cold Tests, ” Journal of Vibration and Acoustics, Vol. 132 , pp.021008-1, 2010. W. Dou , Z. S. Liu and X. Wang ,“ Application of Image Recognition Based on Artificial Immune in Rotating Machinery Fault Diagnosis , ” Bioinformatics and Biomedical Engineering 2007, The 1st International Conference on ,Page(s): 1047 – 1052 , 2007. Z. Feng , M. Liang and F. Chu ,“ Recent advances in time–frequency analysis methods for machinery fault diagnosis A review with application examples, ” Mechanical Systems and Signal Processing, Volume 38, Issue 1, Pages 165-205, 5 July 2013. Y. Guo and K. K. Ton ,“ High efficient crossing-order decoupling in Vold–Kalman filtering order tracking based on independent component analysis , ” Mechanical Systems and Signal Processing, No.24, pp. 1756–1766 , 2010. H. Hassanpour , A time frequency approach for noise reduction , Digit . Signal Process . 18 (2008) 728–738 . Q. He ,“Time–frequency manifold for nonlinear feature extraction in machinery fault diagnosis, ” Mechanical Systems and Signal Processing, Volume 35, Issues 1–2 , Pages 200-218, February 2013. Q. He , R. Du and F. Kong ,“ Phase Space Feature Based on Independent Component Analysis for Machine Health Diagnosis , ” Journal of Vibration and Acoustics, Vol. 134 ,pp. 021014-1, 2012. H. Jiang , C. Li and H. Li ,“An improved EEMD with multi-wavelet packet for rotating machinery multi-fault diagnosis , ” Mechanical Systems and Signal Processing, Volume 36, Issue 2, Pages 225-239, April 2013. X. Jiang and J. Gao ,“Fault Diagnosis System for Industrial Machinery Based on Embedded HTML5, ” Information and Automation (ICIA), IEEE International Conference on , Page(s): 653 – 658, 2013. Y. Jin and Z. Hao , “An Improved Flowchart for Gabor Order Tracking with Gaussian Window as the Analysis Window ,” EURASIP Journal on Advances in Signal Processing, Article ID 507215, 2011. Y. Lei , Z. He and Y. Zi ,“ Application of the EEMD method to rotor fault diagnosis of rotating machinery , ” Mechanical Systems and Signal Processing , Volume 23, Issue 4, Pages 1327-1338, May 2009. Y. Lei , J. Lin , Z. He and M. J. Zuo ,“ A review on empirical mode decomposition in fault diagnosis of rotating machinery , ” Mechanical Systems and Signal Processing, Volume 35, Issues 1–2, Pages 108-126, February 2013. B. Li and Y. Zhang ,“Supervised locally linear embedding projection (SLLEP) for machinery fault diagnosis , ” Mechanical Systems and Signal Processing , Volume 25, Issue 8, Pages 3125-3134, November 2011. H. Liu , C. Liu and Y. Huang , “Adaptive feature extraction using sparse coding for machinery fault diagnosis , ” Mechanical Systems and Signal Processing , Volume 25, Issue 2, Pages 558-574, February 2011. X. Liu , L. Ma and J. Mathew ,“Machinery Fault Diagnosis Based on Feature Level Fuzzy Integral Data Fusion Techniques , ” Mechanical Systems and Signal Processing, Volume 23, Issue 3, Pages 690-700, April 2009. M. C. Pan , “ Integrated Study of Time-Frequency Representations and Their Applications in Source Identification of Mechanical Noise, ” JSME International Journal – Series C: Mechanical Systems, Machine Elements and Manufacturing, Vol.45, No.3, pp.665-672, 2002. M. C. Pan and J. X. Chen ,“Transmission Noise Identification Using Two-Dimensional Dynamic Signal Analysis,” Journal of Sound and Vibration, No.262, pp.117-140, 2003. M. C. Pan and C. C. Chiu, “Investigation on Improved Gabor Order Tracking Technique and Its Applications,” Journal of Sound and Vibration, No.295, pp.810-826, 2006. M. C. Pan and J. Y. Huang , “Dynamic Interpretation of Transmission Systems Using Advanced Time-Frequency Representation ,” Journal of the Chinese Institute of Engineers, Vol.27, No.7, pp.1087-1092, 2004. M. C. Pan and S. W. Liao, “Biomedical Signal Reconstruction using Gabor Spectral tracking Technique,” International Journal of Information Acquisition, Vol.3, No.1, pp.25-31, 2006. M. C. Pan , S. W. Liao and C. C. Chiu , “Improvement on Gabor Order Tracking and Objective Comparison with Vold-Kalman-Filtering Order Tracking,” Mechanical Systems and Signal Processing, Vol.21, No.2, pp.653-667, 2007. M. C. Pan , P. C. Lee and Y. R. Cheng , “Remote Online Machine Condition Monitoring System,” Measuremen, Vol.41, Issue 8, pp.912-921, 2008. M. C. Pan and Y. F. Lin , “ Further Exploration of Vold-Kalman-Filtering Order Tracking with Shaft-Speed Information – (I) Theoretical Part, Numerical Implementation and Parameter Investigation, ” Mechanical Systems and Signal Processing, Vol. 20 No. 5, pp.1134-1154, 2006. M. C. Pan and Y. F. Lin , “ Further Exploration of Vold-Kalman-Filtering Order Tracking with Shaft-Speed Information – (II) Engineering Applications, ” Mechanical Systems and Signal Processing, Vol.20, No.6, pp.1410-1428, 2006. M. C. Pan and W. C. Tsao , “Using Appropriate IMFs for Envelope Analysis in Multiple Fault Diagnosis of Ball Bearings ,” International Journal of Mechanical Sciences, Vol.69,pp.114–124, 2013. M. C. Pan and C. X. Wu , “Adaptive Vold - Kalman Filtering Order Tracking, ” Mechanical Systems and Signal Processing, Vol.21, Issue 8, pp.2957-2969, 2007. M. C. Pan and C. X. Wu , “ Extended Angular-Velocity Vold-Kalman Order Tracking,” Journal of Dynamic Systems Measurement and Control-Transactions of the ASME, Vol. 132(3), 031001, 2010. M. J. E. Salami , T. I. B and A. U. Jibia , “ Development of Real-Time Software Interface for Multicomponent Transient Signal Analysis Using Labview and Matlab,”Mechatronics (ICOM), 2011 4th International Conference On , Page(s): 1 – 5 , 2011. V. T. Tran , B. S. Yang , F. Gu and A. Ball ,“Thermal image enhancement using bi-dimensional empirical mode decomposition in combination with relevance vector, ”Mechanical Systems and Signal Processing , Volume 38, Issue 2, Pages 601-614, 20 July 2013. W. C. Tsao , Y. F. Li , D. D. Le and M. C. Pan , “An Insight Concept to Select Appropriate IMFs Proceeded with Envelope Analysis for Bearing Fault Diagnosis ,” Measurement, Vol.45, Issue 6, pp.1489-1498, 2012. F. Wu and L. Qu ,“Diagnosis of subharmonic faults of large rotating machinery based on EMD , ” Mechanical Systems and Signal Processing, Volume 23, Issue 2, Pages 467-475, February 2009. Y. Wang , Z. He and Y. Zi ,“A Comparative Study on the Local Mean Decomposition and Empirical Mode Decomposition and Their Applications to Rotating Machinery Health Diagnosis , ” Transactions of the ASME , 2010. K.S. Wang and P.S. Heyns , “Application of computed order tracking, Vold–Kalman filtering and EMD in rotating machine vibration , ” Mechanical Systems and Signal Processing, No.25, pp.416-430, 20111. K.S. Wang and P.S. Heyns , “ The combined use of order tracking techniques for enhanced Fourier analysis of order components , ” Mechanical Systems and Signal Processing, No.25, pp.803-811, 20112. R. Yang , D. A. Gray , B. W. Ng and M. He ,“ Comparative Analysis of Signal Processing in Brain Computer Interface , ”Industrial Electronics and Applications , Page(s):580 – 585, 2009. Y. Zhang , L. Kang , J. Wang , J. Sun and Z. Wang ,“ Methods and Experience of Using Matlab and FPGA For Teaching Practice in Digital Signal Processing ,”Education and Management Technology (ICEMT), 2010 International Conference on , Page(s): 414 - 417, 2010. X. Zhao , Q. Kong and Q. Guo ,“ Study of Time-Frequency Order Tracking of Vibration Signals of Rotating Machinery in Changing State , ”Information Processing (ISIP) , 2008 International Symposiums on , Page(s): 559 – 563, 2008. 李柏青, 2003 ,“遠端智能性機械狀態監測,”國立中央大學機械工程研究所碩士論文。 陳鴻瑋, 2013 , “適應性RLS階次分析於即時訊號追蹤之實現與應用,”國立中央大學機械工程研究所碩士論文。
指導教授	潘敏俊	審核日期	2015-1-29
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